Unlocking the potential of aqua farming

OUR SYSTEMS

We grow Lemna on aqua farms. Lemna requires 10x less water than soybeans (almost 100x less than whey!) and uses zero arable land. Lemna plants also take in 10x more CO2 than a healthy forest. Sustainably speaking, our farms create nothing but upside for people, animals and the planet.

We’ve developed a vertically-integrated, completely traceable supply chain with farms that work with, not against, nature.

Our Farms

Nature entangled with our engineering

Unlike traditional farming methods, we don’t need arable land to grow, and we don’t need food to produce food. Our process enhances biodiversity while using minimal natural resources.

Less Water

Our vertical aqua farm maximizes water efficiency by utilizing a stacked arrangement of crops, enabling recirculation and filtration systems. Water is constantly recycled through the system, minimizing wastage. The compact design optimizes space usage, reducing overall water consumption while fostering sustainable crop growth.

For production of 1 kg lemnago protein , we use 50x less water than whey

Round the year production

Our vertical aqua farm achieves year-round production through controlled environments. Usage of controlled sunlight enabling consistent photosynthesis. Temperature and humidity regulation further mimic ideal conditions. Continuous crop rotation and staggered planting maintain a steady supply. These factors, combined with efficient nutrient delivery systems, create a stable environment for plants to thrive regardless of external climate, ensuring uninterrupted production.

High yield

Our vertical aqua farm achieves high yields by leveraging vertical space to maximize planting area. Consistent growth conditions. Automated systems ensure precise nutrient and water delivery, enhancing plant health, this combined with our sturdy Lemna plants ensure year-round production, and daily harvests, resulting in over 10x more protein production than wheat or soy

No arable land needed

Vertical aqua farms minimize land use by stacking plant beds vertically, requiring less horizontal space. They can be set up in barren lands with extreme climate, utilizing non-arable land effectively. This approach maximizes land efficiency while eliminating the need for traditional arable soil. As a result, they offer a solution for cultivating crops in locations with limited available agricultural land.